Study of protective effects of exogenous heat shock protein 70 kDa in model of sleep deprivation in pigeon Columba livia

Electroencephalographic methods were used to study effects of preparation of the exogenous heat shock protein with molecular mass of 70 kDa (Hsp70i/Hsc70) on time characteristics of sleep and wakefulness, brain temperature, peripheral vasomotor reactions, and thoracic muscle contractile activity after the 5-hour forceful sleep deprivation in the pigeon Columba livia. Administration of Hsp70i/Hsc70 into the third brain ventricle at once after the end of sleep deprivation eliminated disturbances in the sleep-wakefulness cycle organization and decreased the thoracic muscle contractile activity and the brain temperature as early as for the first hour of postdeprivation period. For the subsequent hours, the Hsp70i/Hsc70 action was characterized by an increase of the total time of deep sleep and a decrease of the total time of the rapid eye movement sleep. We suggest that the protective effects of the exogenous Hsp70i/Hsc70 preparation are associated with its ability to decrease activity of the hypothalamo-pituitary-adrenal axis and to enhance the stress-limiting function of the slow eye movement sleep.